缩放
斯太尔率
光学
光传递函数
点扩散函数
泽尼克多项式
稳健性(进化)
物理
自适应光学
波前
傅里叶光学
计算
视野
红外线的
衍射
图像分辨率
光学像差
材料科学
领域(数学)
计算机科学
热的
传递函数
空间频率
点(几何)
相位调制
几何光学
作者
Di Wang,Xiaolin Wei,Shuai Zhou,He Ren,Yang Xu,Yuxiang Feng,Hong Chang,Shouqian Chen
标识
DOI:10.1002/adom.202502813
摘要
Abstract Mid‐infrared imaging systems used in gas sensing, thermal diagnostics, and long‐range surveillance increasingly demand compact optics capable of both wide‐angle coverage and continuous zooming. Conventional refractive or diffractive zoom optics in the mid ‐ wave infrared (MWIR, 3–5µm) band are bulky and difficult to scale, and existing metasurface zoom approaches are typically limited to the visible/NIR regime with narrow fields of view. Here, a mid‐infrared Moiré meta‐doublet is reported that provides 18× continuous optical zoom (10–180 mm) and >80° diffraction‐limited field of view (FOV) using a mechanically simple mutual‐angle rotation. The device integrates angle ‐ of ‐ incidence (AOI)‐compensated phase synthesis and high‐order Moiré polynomial correction to maintain stable point spread functions (PSFs), high Strehl ratios (SRs), and consistent modulation transfer function (MTF) response across the entire zoom range. Imaging demonstrations and USAF‐1951 resolution test validate the robustness of the approach for wide‐FOV sensing and compact thermal‐vision platforms.
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